Written largely for project managers charged with bringing automation into an existing facility, this comprehensive new book takes the reader through the many steps of evaluating whether automation is needed, ways to plan the project, assembling the team, and overseeing the purchase, testing, and maintenance of equipment. A very practical guide for any-sized facility. Getting Factory Automation Right (The First Time) takes a multi-disciplinary approach. It presents engineering concepts without being overly technical, serving as a readable reference for any member of the acquisition project team. Whether you're a project manager, manufacturing engineer, or purchaser, this book takes you through the many steps of evaluating whether automation is needed, planning the project, assembling the team, and overseeing the purchase, testing, and installation of equipment. In addition, the book contains a valuable CD-ROM with interactive spreadsheets and the text of equipment specifications that will help readers get the most from the book.
A New York Times bestselling author and tech columnist's counter-intuitive guide to staying relevant - and employable - in the machine age by becoming irreplaceably human. It's not a future scenario any more. We've been taught that to compete with automation and AI, we'll have to become more like the machines themselves, building up technical skills like coding. But, there's simply no way to keep up. What if all the advice is wrong? And what do we need to do instead to become futureproof? We tend to think of automation as a blue-collar phenomenon that will affect truck drivers, factory workers, and other people with repetitive manual jobs. But it's much, much broader than that. Lawyers are being automated out of existence. Last year, JPMorgan Chase built a piece of software called COIN, which uses machine learning to review complicated contracts and documents. It used to take the firm's lawyers more than 300,000 hours every year to review all of those documents. Now, it takes a few seconds, and requires just one human to run the program. Doctors are being automated out of existence, too. Last summer, a Chinese tech company built a deep learning algorithm that diagnosed brain cancer and other diseases faster and more accurately than a team of 15 top Chinese doctors. Kevin Roose has spent the past few years studying the question of how people, communities, and organisations adapt to periods of change, from the Industrial Revolution to the present. And the insight that is sweeping through Silicon Valley as we speak -- that in an age dominated by machines, it's human skills that really matter - is one of the more profound and counter-intuitive ideas he's discovered. It's the antidote to the doom-and-gloom worries many people feel when they think about AI and automation. And it's something everyone needs to hear. In nine accessible, prescriptive chapters, Roose distills what he has learned about how we will survive the future, that the way to become futureproof is to become incredibly, irreplaceably human.
The Future of Airplane Factory: Digitally Optimized Intelligent Airplane Factory defines the architecture, key building blocks, and roadmap for actualizing a future airplane factory (FAF) that is digitally optimized for intelligent airplane assembly. They fit and integrate with other FAF building blocks that aggregate to a Digitally Optimized Intelligent Airplane Factory (DOIAF). The word "intelligent" refers to the ability of a system to make right decisions and take right action in the highly dynamic and fluid environment of the modern airplane manufacturing space. The event-driven dynamics inherent in the complexity of this environment drive the need for expert knowledge which resides in intelligence systems incorporating the experience of experts. Expert knowledge need not be smart, brilliant, or possess genius as long as the outcomes are derived from right decisions resulting in right actions-applied rapidly to sustain an optimized factory enterprise. Complete factory enterprise visibility requires a higher order of decision capability that current operating systems do not have. A highly visible factory collects and displays data and information as it happens-at a rate beyond the ability of humans and current systems to analyze, process, decide, and act upon. Expert systems are constructed to present humans with right decisions in the form of optimal choices for right actions by incorporating the knowledge of experts into the logic for the decision. Structured Knowledge-Based Expert Systems (SKBES) are incorporated in this book and defined as a critical component for full enterprise actionable visibility. The power of the Digitally Optimized Intelligent Airplane Factory not only is found in its ability to unify the factory, reduce touch labor, improve quality, and streamline throughput but it also enables a significant reduction in above-the-shop-floor support and management. Such an ecosystem frees the human to focus on the complexity of interpersonal responsibilities. If the use of a DOIAF can be viewed as a holistic mechanism, then the human can be the agent engaging with that mechanism; improving negotiations for pricing, contracts, or other person-to-person events that require instinct and relationship.
This volume comprises peer-reviewed proceedings of the International Conference on Robotics, Control, Automation, and Artificial Intelligence (RCAAI 2022). It aims to provide a broad spectrum picture of the state of art research and development in the areas of intelligent control, the Internet of Things, machine vision, cybersecurity, robotics, circuits, and sensors, among others. This volume will provide a valuable resource for those in academia and industry.
For more than 40 years, Computerworld has been the leading source of technology news and information for IT influencers worldwide. Computerworld's award-winning Web site (Computerworld.com), twice-monthly publication, focused conference series and custom research form the hub of the world's largest global IT media network.
Embrace Open Engineering and accelerate the design and manufacturing processes Product development is a team sport, but most companies don't practice it that way. Organizations should be drawing on the creativity of engaged customers and outsiders, but instead they rely on the same small group of internal "experts" for new ideas. Designers and engineers should be connecting with marketing, sales, customer support, suppliers, and most importantly, customers. The Art of Product Design explains the rise of "Open Engineering," a way of breaking down barriers and taking advantage of web-based communities, knowledge, and tools to accelerate the design and manufacturing processes. Explains how to establish open flows of information inside and outside an organization, increasing the quality and frequency of input from different groups and stakeholders Hardi Meybaum is the founder and CEO of GrabCad, the largest community of mechanical engineers and designers in the world Open Engineering is crowdsourcing, it's collaborating, it's sharing and connecting. And it's helping a growing number of companies create better products faster than they ever imagined. The Art of Product Design shows you how to harness its power for your company.
In recent years, technology has permeated every aspect of daily life and has drastically increased accessibility and empowerment for all demographics. Smart technologies and mobile applications now have the ability to promote and protect the basic rights of children, women, and men alike. A child’s right to education and mental growth or a woman’s socio-economic stability and protection from physical, sexual, and emotional abuse can all be attributed to these advancements. Mobile Devices and Smart Gadgets in Human Rights provides emerging research exploring the theoretical and practical applications of technology in relation to human ethical treatment and interactions. Featuring coverage on a broad range of topics such as public safety, augmented reality, and safety apps, this book is ideally designed for researchers, students, activists, academicians, policymakers, and government officials seeking current research on the influence of portable technologies in human rights and ethics.
Now in its eleventh edition, DeGarmo's Materials and Processes in Manufacturing has been a market-leading text on manufacturing and manufacturing processes courses for more than fifty years. Authors J T. Black and Ron Kohser have continued this book's long and distinguished tradition of exceedingly clear presentation and highly practical approach to materials and processes, presenting mathematical models and analytical equations only when they enhance the basic understanding of the material. Completely revised and updated to reflect all current practices, standards, and materials, the eleventh edition has new coverage of additive manufacturing, lean engineering, and processes related to ceramics, polymers, and plastics.
Explore industrial automation and control-related concepts like the wiring and programming of VFDs and PLCs, as well as smart factory (Industry 4.0) with this easy-to-follow guide Purchase of the print or Kindle book includes a free PDF eBook Key Features Learn the ins and outs of industrial automation and control by taking a pragmatic approach Gain practical insights into automating a manufacturing process using PLCs Discover how to monitor and control an industrial process using HMIs and SCADA Book DescriptionIndustrial automation has become a popular solution for various industries looking to reduce manual labor inputs and costs by automating processes. This book helps you discover the abilities necessary for excelling in this field. The book starts with the basics of industrial automation before progressing to the application of switches, sensors, actuators, and motors, and a direct on-line (DOL) starter and its components, such as circuit breakers, contactors, and overload relay. Next, you'll explore VFDs, their parameter settings, and how they can be wired and programmed for induction motor control. As you advance, you'll learn the wiring and programming of major industrial automation tools – PLCs, HMIs, and SCADA. You’ll also get to grips with process control and measurements (temperature, pressure, level, and flow), along with analog signal processing with hands-on experience in connecting a 4–20 mA transmitter to a PLC. The concluding chapters will help you grasp various industrial network protocols such as FOUNDATION Fieldbus, Modbus, PROFIBUS, PROFINET, and HART, as well as emerging trends in manufacturing (Industry 4.0) and its empowering technologies (such as IoT, AI, and robotics). By the end of this book, you’ll have gained a practical understanding of industrial automation concepts for machine automation and control.What you will learn Get to grips with the essentials of industrial automation and control Find out how to use industry-based sensors and actuators Know about the AC, DC, servo, and stepper motors Get a solid understanding of VFDs, PLCs, HMIs, and SCADA and their applications Explore hands-on process control systems including analog signal processing with PLCs Get familiarized with industrial network and communication protocols, wired and wireless networks, and 5G Explore current trends in manufacturing such as smart factory, IoT, AI, and robotics Who this book is for This book is for both graduates and undergraduates of electrical, electronics, mechanical, mechatronics, chemical or computer engineering, engineers making a career switch, or anyone looking to pursue their career in the field of industrial automation. The book covers topics ranging from basic to advanced levels, and is a valuable reference for beginner-level electrical, IIoT, automation, process, instrumentation and control, production, and maintenance engineers working in manufacturing and oil and gas industries, among others.
